New roles for CD14 and IL-[beta] linking inflammatory dendritic cells to IL-17 production in memory CD4+ T cells
Interleukin (IL)-1β has proven to be crucial in the differentiation of human and mouse Th17 cells. Although it has become evident that IL-1β has potent IL-17-inducing effects on CD4+ T cells directly, it has not yet been explored whether IL-1β can also prime dendritic cells (DCs) for a Th17 instruct...
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| Veröffentlicht in: | Immunology and cell biology 2016-11, Vol.94 (10), p.907 |
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| creator | Ilarregui, Juan M Van Beelen, Astrid J Fehres, Cynthia M Bruijns, Sven C M García-vallejo, Juan J Van Kooyk, Yvette |
| description | Interleukin (IL)-1β has proven to be crucial in the differentiation of human and mouse Th17 cells. Although it has become evident that IL-1β has potent IL-17-inducing effects on CD4+ T cells directly, it has not yet been explored whether IL-1β can also prime dendritic cells (DCs) for a Th17 instruction program. Here, we show that human immature DCs exposed to IL-1β promote IL-17 production in human memory CD4+ T cells. IL-1β-primed DCs express high levels of CD14 that mediate IL-17 production through direct interaction with T cells. Moreover, culturing human CD4+ CD45RO+ memory T cells with soluble CD14 is sufficient for the upregulation of retinoic acid-related orphan receptor-γ thymus and IL-17 production. In addition, in a human in situ model using tissue-resident skin DCs, upregulation of CD14 expression induced by IL-1β on skin residents DCs promotes IL-17 production in memory T cells; strongly suggesting the in vivo relevance of this mechanism. Our findings uncover new roles for IL-1β and CD14, and may therefore have important consequences for the development of new therapies for Th17-mediated autoimmune diseases and bacterial and fungal pathogenic infections. |
| doi_str_mv | 10.1038/icb.2016.66 |
| format | Article |
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Although it has become evident that IL-1β has potent IL-17-inducing effects on CD4+ T cells directly, it has not yet been explored whether IL-1β can also prime dendritic cells (DCs) for a Th17 instruction program. Here, we show that human immature DCs exposed to IL-1β promote IL-17 production in human memory CD4+ T cells. IL-1β-primed DCs express high levels of CD14 that mediate IL-17 production through direct interaction with T cells. Moreover, culturing human CD4+ CD45RO+ memory T cells with soluble CD14 is sufficient for the upregulation of retinoic acid-related orphan receptor-γ thymus and IL-17 production. In addition, in a human in situ model using tissue-resident skin DCs, upregulation of CD14 expression induced by IL-1β on skin residents DCs promotes IL-17 production in memory T cells; strongly suggesting the in vivo relevance of this mechanism. 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Although it has become evident that IL-1β has potent IL-17-inducing effects on CD4+ T cells directly, it has not yet been explored whether IL-1β can also prime dendritic cells (DCs) for a Th17 instruction program. Here, we show that human immature DCs exposed to IL-1β promote IL-17 production in human memory CD4+ T cells. IL-1β-primed DCs express high levels of CD14 that mediate IL-17 production through direct interaction with T cells. Moreover, culturing human CD4+ CD45RO+ memory T cells with soluble CD14 is sufficient for the upregulation of retinoic acid-related orphan receptor-γ thymus and IL-17 production. In addition, in a human in situ model using tissue-resident skin DCs, upregulation of CD14 expression induced by IL-1β on skin residents DCs promotes IL-17 production in memory T cells; strongly suggesting the in vivo relevance of this mechanism. 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| source | Wiley Online Library Journals Frontfile Complete |
| title | New roles for CD14 and IL-[beta] linking inflammatory dendritic cells to IL-17 production in memory CD4+ T cells |
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